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Stable electret polymeric articles

a polymer and stable technology, applied in the field of polymeric electret filtration materials, can solve the problems of inability to impart an electrostatic charge or field of sufficient initial strength and/or maintain a desired level of electrostatic charge over time, and many thermoplastic polymer materials often experience a significant or accelerated degradation in the level of electrostatic charge, so as to achieve the effect of enhancing the filtration efficiency of porous materials of the present invention

Inactive Publication Date: 2005-05-17
KIMBERLY-CLARK WORLDWIDE INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008]The present invention provides an improved electret material having locally large electric fields which are more stable than those of comparable pre-existing electret materials. Accordingly, the filtration efficiency of porous materials of the present invention are thus enhanced and furthermore, the increased filtration efficiency can be better maintained over time as well as upon exposure to heat and / or moisture. Thus, the problems experienced by those skilled in the art are overcome by the present invention which, in one aspect, comprises a porous electret sheet formed from a composite material comprising a polymeric matrix and a ferroelectric material dispersed therein and wherein the polymeric matrix comprises (i) a first thermoplastic polymer component and (ii) a second thermoplastic polymer having one or more polar functional groups. In a further aspect, the second thermoplastic polymer can comprise a telomer. In still a further aspect, the second thermoplastic polymer can comprise a non-polar polymer randomly modified to include polar functional groups or a copolymer of two or more ethylinically unsaturated monomers, wherein one or more of the monomers possesses a polar functional group. In one embodiment, the first thermoplastic polymer component desirably comprises between about 45 and about 99.9% by weight of the composite, the second thermoplastic polymer desirably comprises from about 0.1 to about 25% by weight of the composite, and the ferroelectric component desirably comprises from about 0.01% to about 30% by weight of the composite. In still a further aspect, the first thermoplastic polymer component can comprise a semi-crystalline polyolefin. Additionally, the polymeric matrix can comprise a substantially homogeneous blend or mixture of a polyolefin and a telomer. In still a further aspect of the present invention, the porous sheet can comprise a nonwoven web of thermoplastic polymer fibers having a substantially permanent or stabilized charge contained therein.

Problems solved by technology

Air filtration efficiency varies with the electrostatic charge; however, it is not a direct measure of the quantity or magnitude of charge in the media.
However, the ability to impart an electrostatic charge or field of sufficient initial strength and / or maintaining a desired level of electrostatic charge over time has proven difficult for many materials and, in particular, non-polar materials such as polyolefin fabrics.
Moreover, many thermoplastic polymer materials often experience a significant or accelerated degradation in the level of electrostatic charge upon exposure to heat and / or moisture.

Method used

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  • Stable electret polymeric articles
  • Stable electret polymeric articles
  • Stable electret polymeric articles

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0037]Example 1A (comparative): the meltblown fibers consisted of 100% by weight polypropylene (PROFAX PF-015 available from Montel Polymers of Wilmington, Del.);[0038]Example 1B (comparative): the meltblown fibers consisted of a microcomposite of 99% by weight polypropylene (PROFAX PF-015 available from Montel Polymers of Wilmington, Del.) and 1% by weight BaTiO3 (TICON 5016 Barium Titanate available from TAM Ceramics of Niagara Falls, N.Y.);[0039]Example 1C: the meltblown fibers consisted of a microcomposite of 98% by weight polypropylene (PROFAX PF-015 available from Montel Polymers of Wilmington, Del.), 1% by weight maleic anhydride telomer (EXXELOR PO 1015 available from Exxon Chemical Company of Houston, Tex.) and 1% by weight BaTiO3 (TICON 5016 Barium Titanate available from TAM Ceramics of Niagara Falls, N.Y.);[0040]Example 1D: the meltblown fibers consisted of a microcomposite of 98% by weight polypropylene (PROFAX PF-015 available from Montel Polymers of Wilmington, Del.),...

example 2

[0047]Example 2A: the meltblown fibers consisted of a microcomposite of 99% by weight polypropylene (Fina EOD97-18 available from Fina Oil and Chemical Company of Deer Park, Tex.) and 1% by weight BaTiO3 (TICON 5016 Barium Titanate available from TAM Ceramics of Niagara Falls, N.Y.);[0048]Example 2B: the meltblown fibers consisted of a microcomposite of 98% by weight polypropylene (Fina EOD97-18 available from Fina Oil and Chemical Company of Deer Park, Tex.), 1% by weight maleic anhydride telomer (EXXELOR PO 1015 available from Exxon Chemical Company of Houston, Tex.) and 1% by weight BaTiO3 (TICON 5016 Barium Titanate available from TAM Ceramics of Niagara Falls, N.Y.).

[0049]As evidenced by the data set forth in Tables 2A and 2B below, the microcomposite / telomer combination yields filter media with higher initial filtration efficiency and better resistance to efficiency loss due to aging effects. Microcomposite media of polypropylene / barium titanate experienced a 9% change in filt...

example 3

[0052]Example 3A: the meltblown fibers consisted of a microcomposite of 91.3% by weight polypropylene (PROFAX PF-015 available from Montel Polymers of Wilmington, Del.), 5% by weight maleic anhydride telomer (EXXELOR PO 1015 available from Exxon Chemical Company of Houston, Tex.) and 3.7% by weight BaTiO3 (TICON 5016 Barium Titanate available from TAM Ceramics of Niagara Falls, N.Y.);[0053]Example 3B: the meltblown fibers consisted of a microcomposite of 91.3% by weight polypropylene (PROFAX PF-105 available from Montel Polymers of Wilmington, Del.), 5% by weight maleic anhydride telomer (POLYBOND 3200 available from Uniroyal Chemical Company, Middlebury, Conn.) and 3.7% by weight BaTiO3 (TICON 5016 Barium Titanate available from TAM Ceramics of Niagara Falls, N.Y.).

[0054]The air filtration efficiencies for the meltblown nonwoven webs prepared from examples 3A and 3B shown are set forth in Tables 3A and 3B. Filtration media were evaluated at the time of manufacture and then again ap...

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Abstract

A porous polymeric sheet is provided having an electrostatic charge and comprising a zero-three composite of a polymeric matrix and a ferroelectric material dispersed therein. The polymeric component comprises a non-polar thermoplastic polymer, such as a polyolefin, and a second thermoplastic polymer having polar functional units, such as a telomer. The composite material is formed into a porous sheet and is electrically or corona poled to create an electret material which is well suited four use in various filtration, air-masking and dust wipe applications.

Description

[0001]This application is a divisional of application Ser. No. 09 / 492,607 entitled Stable Electret Polymeric Articles and filed in the U.S. Patent and Trademark Office on Jan. 27, 2000 now U.S. Pat. No. 6,573,205. The entirety of application Ser. No. 09 / 492,607 is hereby incorporated by reference. This application claims the benefit of provisional application 60 / 117,703 filed on Jan 30, 1999.FIELD OF THE INVENTION[0002]The present invention relates to polymeric electret materials and, more particularly, the present invention relates to polymeric electret filtration materials.BACKGROUND OF THE INVENTION[0003]Nonwoven fabrics, fibrillated films, and other materials comprising polymeric fibers or fibrils have been utilized in a variety of filtration and / or air-masking type applications. For example, U.S. Pat. No. 5,460,007 to Midkiff et al. discloses the use of a nonwoven web for HVAC (heating, ventilating and air-conditioning) and other air filtration media. PCT Application No. US94 / 1...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): B01D39/16B01D39/08
CPCB01D39/083B01D39/1692B01D39/1623Y10T428/24273B01D2239/0208B01D2239/0216B01D2239/0435B01D2239/0622B01D2239/0627B01D2239/064B01D2239/065B01D2239/0663B01D2239/0677B01D2239/1291Y10S55/39Y10T428/25Y10T428/2927Y10T442/68Y10T442/3976Y10T442/3854Y10T442/674Y10T442/681Y10T442/659Y10T428/31909Y10T428/31855Y10T442/3325Y10T442/689Y10T442/647Y10T428/249953Y10T442/696
Inventor MYERS, DAVID LEWISLASSIG, JOHN JOSEPHTURKEVICH, LEONID ANTHONYMIDKIFF, DAVID GRANT
Owner KIMBERLY-CLARK WORLDWIDE INC
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